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Sabtu, 23 Juli 2011

KODE ERROR PADA BLACKBERRY

Berikut adalah daftar error code yang mungkin dialami Java Virtual Machine (JVM) di BlackBerry. Silakan terjemahkan sendiri dan googling untuk mendapat keterangan tambahan.



101 Previous startup failed — The device was reset during the JVM boot process. The JVM found the boot in progress flag was set on startup. The screen is intended to break continuous reset loops so that corrective action can be taken.

102 Invalid code in filesystem — The system checked the COD files in the device for modification and determined that a problem exists with one or more COD files.
If all loads fail, a build process error might occur (a problem exists with signing the COD files).
If a user action on the device resulted in this problem, the reset cycle is continuous because the code in the filesystem has been corrupted. The only recovery method is to wipe the device and restore a new system.

103 Cannot find starting address — The starting address for the boot COD file cannot be found. This might indicate that a boot COD file has not been installed on the device or that its format is invalid or corrupt.

104 Uncaught: — An uncaught Java exception was thrown by the Java code and diagnosed by the JVM. Execution can continue, or the device can be attached to a debugger on a desktop computer. The Microsoft® Windows® Event Viewer log should contain the traceback of the thrown exception.

105 Example, DbRecSize( %d ) -> %d — The file system application programming interface (API) has returned an error status for a specific operation. This might indicate a corrupt filesystem or an error in the JVM.

106 Graphics system error — An error was detected in the graphics system on the device.

107 operator new() called — A C++ class in the JVM was coded incorrectly to inherit from VMRamObject that has the correct override for operator new. Extract the current (post-reset) BUGDISP.

108 operator delete() called — A C++ class in the JVM has was coded incorrectly to inherit from VMRamObject that has the correct override for operator delete. Extract the current (post-reset) BUGDISP.

109 PriorityMessageCount error: — The value returned by RimPriorityMessageCount is negative. It should always be greater than, or equal to, zero. This indicates an error in the operating system code. Extract the current (post-reset) BUGDISP and EVENTLOG.

110 Non-idle event downtime error: — A problem was detected in the accumulation of JVM down time, which represents how long the JVM has been idle. This usually indicates an error in the device firmware or the JVM. This could also occur if the tick count rolls over after 400 or more days of device time.

111 Font engine error — An error was detected in the font engine system on the device. Extract the current (post-reset) BUGDISP and EVENTLOG.

112 Java Native Assertion Failure — An error was detected in the Java native code. Extract the current (post-reset) BUGDISP and EVENTLOG.

200 Application manager threw an uncaught exception — The application manager event thread threw an uncaught exception and cannot continue execution.

201 Crypto initialization code failed — The initialization of the crypto system failed and the device cannot continue execution.

202 An attack on the key store has been detected — An attack has been detected and execution cannot continue.

203 Console process died — The application manager console process (usually the Ribbon) has died. This is likely due to an uncaught exception during execution.

204 Persistent Content Exception — An application tried to commit a plaintext object to the Persistent Store. This will only happen if Content Protection is on and a process tries to save something in the PersistentStore that is marked as plaintext. Since this exception was not handled, the persistent store is in a bad state. You should reset to roll back to the last good commit point.

Note: This is not a JVM error; the JVM is simply diagnosing the problem. The eventlog contains information about the erroneous Java code.

501 VM_THREAD_SWITCHED: Internal Error — This is an error return used internally in the VM. It should never be reported as a device error.

502 VM_PROCESS_DEATH: All processes exited — The last Java process has terminated. There is nothing left to execute.

503 VM_THREAD_DEATH: Internal Error — This is an error return used internally in the VM. It should never be reported as a device error.

504 VM_THREAD_SWITCH: Internal Error — This is an error return used internally in the VM. It should never be reported as a device error.

505 VM_BAD_CODE: Bad Byte Code — An error has occurred in the JIT compiler.

506 Uncaught Exception — An uncaught Java exception was thrown in the initial VM Java thread, thus ending the only live thread in the system. The eventlog contains the traceback for the exception.

507 Unsatisfied Link — A dependency on a COD file could not be satisfied because the COD file is missing.

508 Invalid object — A problem has been detected with a debugger command to the VM.

509 VM_PPO_INFINITE_LOOP: infinite loop in PPO phase of GC — The maximum iteration count for the PPO phase of a GC must be the maximum number of file handles in the system. This error indicates that the iteration count exceeds the maximum. Hence, a flaw exists in the PPO loop or a corrupted file system. The extra hex integer in the error string is the flash id of the current record where the infinite loop was detected.

510 Deadlock — All threads are waiting on objects, resulting in deadlock. The system cannot recover from this state because no thread can release a lock.

511 Debug connection died — A problem has occurred while debugging that may be caused by a VM problem or an incorrect debugging command being sent to the VM.

512 GC Aborted — An idle garbage collection has been interrupted by a user event (for instance, a key was pressed or the trackwheel was used).

513 needs running — An opcode requires that a class execute before it can continue execution.

514 needs running — A new instance of a class has been allocated and it must be initialized by the default constructor before it can be used.

515 Object group too big — The reachable objects form a group that cannot be represented properly by the JVM because either there are too many objects or the total size of the objects is too large.

516 Persistent ids exhausted — When committing a persistent object, the JVM found that the persistent store id counter reached its limit. The object was not committed and a critical error was reported. This error should not occur unless a device is heavily used for years.

517 Filesystem corrupt — An inconsistency was detected in the JVM persistent object store.

518 Unexpected longjmp — A garbage collection marking phase was terminated via a longjmp. This indicates that the marking phase was interrupted when it should have completed without interruption. This error should not occur because these actions are executed when the device is not idle, and GCs can only be interrupted when the device is idle.

519 Internal Error — The JVM host is missing or has been disabled.

520 Internal Return — This is an internal state that indicates a Java method return needs to be executed.

521 Dangerous Wait — An Object.wait() was executed by a thread that holds a lock on another object.

522 Interlaced synchronization — A thread acquired two locks on objects in an order that doesn’t match the order in which a lock on the two types were previously acquired. This indicates a future potential deadlock situation and is reported. The check is only available in the simulator under the control of the JvmDebugLocks application switch.

523 System process died — A critical Java process has terminated, and the device cannot continue to operate in a normal manner.

524 LMM error — An object has been marked as recovered by the Low Memory Manager, but it was not freed during a garbage collection.

525 Bad persistent object — An auto-commit operation during a garbage collection detected a non-persistent object reachable from the persistent store root. The type of the object was output into the eventlog.

526 java.lang.Object not found — The class definition for java.lang.Object cannot be found.

527 java.lang.String not found — The class definition for java.lang.String cannot be found.

528 Corrupt filesystem. Unrecoverable. All data will be lost — All data will be lost when execution continues. The error message screen contains a number representing an internal reason for the corruption. This error is not diagnosed if a COD file was removed because the JVM must delete objects that were defined in the removed COD file. Thus, this error is not expected in normal device operation. Refer to the following reason codes:

1. Root array reference is not a valid array reference
2. Root array type is not Object[]
3. Root array size <> needs running — This is used internally for ECMAScript to call Java methods.

534 VM_FAST_RESET_DISABLED: Fast Reset Disabled — This is used internally to indicate that fast reset capability is not available. Often used in platform-specific code.

535 VM_UNUSED_535: Unused — This is an unused VM error.

536 VM_FAST_RESET_BAD_INSTANCE: VM Instance Check Failed — This is used internally to indicate that the VM structure passed in is at the wrong address or has been corrupted.

537 VM_FAST_RESET_BAD_HEAP: Heap Check Failed — This is used internally to indicate that the VM heap has been corrupted or pointers into the heap have been corrupted.

538 VM_FAST_RESET_BAD_IRAM: IRAM Check Failed — This is used internally to indicate that the VM IRAM checks have detected corruption of VM data structures (threads and local stacks) that reside in IRAM.

539 VM_FAST_RESET_NOT_IDLE: Not Idle — This is used internally to indicate that the VM was not idle when the reset occurred and, as such, cannot continue with a fast reset.

540 VM_FAST_RESET_MULTIPLE_RESETS: Multiple Resets — This is used internally to indicate that the time since the last fast reset is less than a minimum time. By disallowing multiple fast resets in a short amount of time, this should prevent fast reset loops.

541 VM_HEAP_COMPACT_INFINITE_LOOP: infinite loop detected in heap compaction — The VM detected a problem in its RAM heap that indicates its RAM was corrupted. The problem was detected by identifying a possible infinite loop during RAM heap compaction. A bugdisp log and eventlog should be extracted quickly when the device is in this condition. If possible, images of RAM should be saved.

542 Transient memory leak — The JVM detected that some memory was not freed, indicating that a memory leak has occurred. This condition is detected as early as possible to improve chances of isolating the cause.

543 VM_FS_MISMATCH: Incompatible Java filesystem installed — The VM detected that the operating system binary is different from the operating system binary used to create the Java file system. This means that the Java native methods may not be linked properly and as such, the integrity of the system cannot be guaranteed. The system can be recovered by using the VM DLFX and DLPS commands to delete the fixups and persistent store. This will clear all data and fixups and let the filesystem re-link to match the new operating system binary.

Note: The recovery order is:

1. Delete fixups
2. Delete persistent store
3. Reset device

544 VM_SECTION_MAP_OVERFLOW: a module references more than 255 other modules — The VM detected that a module is trying to reference more than 255 other modules. Extract the filesystem immediately when this error is detected.

545 VM_INCOMPATIBLE_FILESYS: an incompatible or corrupt filesystem was found — The VM detected an incompatible or corrupt filesystem. Extract the filesystem immediately when this error is detected.

546 VM_UNUSED_546: unused — The VM detected that the RAM image of its filesystem is corrupted (failed CRC check). Better to reset than to duplicate the corruption into flash.

547 VM_UNUSED_547: unused — This is an unused VM error.

548 VM_UNUSED_548: unused — This is an unused VM error.

549 VM_UNUSED_549: unused — This is an unused VM error.

Sebenarnya masih ada beberapa error lain namun saya belum dapat menemukan referensinya. Contoh error 552: Reload Software yang biasanya disebabkan setelah instal aplikasi atau theme yang tidak cocok dengan spesifikasi BlackBerry yang digunakan. Solusi untuk error ini tentunya dengan menghapus aplikasi atau theme tersebut. Bisa juga dengan menggunakan BBSAK (BlackBerry Swiss Army Knife) menu Remove COD(s) dan mencari file cod dari aplikasi/theme itu. Namun bila sudah parah, terpaksa harus wipe kemudian instal ulang OS di handheld. Sambil berharap semoga BlackBerry tidak nuked.


sumber : blackberry.com

Rabu, 13 Juli 2011

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